/* Copyright (C) 2000 Paul Davis This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ /* This file contains any ARDOUR_UI methods that require knowledge of the various dialog boxes, and exists so that no compilation dependency exists between the main ARDOUR_UI modules and their respective classes. This is to cut down on the compile times. It also helps with my sanity. */ #include #include #include "pbd/convert.h" #include "ardour/audioengine.h" #include "ardour/automation_watch.h" #include "ardour/control_protocol_manager.h" #include "ardour/profile.h" #include "ardour/session.h" #include "control_protocol/control_protocol.h" #include "gtkmm2ext/keyboard.h" #include "gtkmm2ext/utils.h" #include "actions.h" #include "add_route_dialog.h" #include "add_video_dialog.h" #include "ardour_ui.h" #include "big_clock_window.h" #include "big_transport_window.h" #include "bundle_manager.h" #include "global_port_matrix.h" #include "gui_object.h" #include "gui_thread.h" #include "keyeditor.h" #include "location_ui.h" #include "lua_script_manager.h" #include "luawindow.h" #include "main_clock.h" #include "meterbridge.h" #include "meter_patterns.h" #include "monitor_section.h" #include "midi_tracer.h" #include "mini_timeline.h" #include "mixer_ui.h" #include "plugin_dspload_window.h" #include "public_editor.h" #include "processor_box.h" #include "rc_option_editor.h" #include "route_params_ui.h" #include "shuttle_control.h" #include "session_option_editor.h" #include "speaker_dialog.h" #include "splash.h" #include "sfdb_ui.h" #include "time_info_box.h" #include "timers.h" #include "transport_masters_dialog.h" #include "pbd/i18n.h" using namespace ARDOUR; using namespace PBD; using namespace Glib; using namespace Gtk; using namespace Gtkmm2ext; using namespace ArdourWidgets; void ARDOUR_UI::set_session (Session *s) { SessionHandlePtr::set_session (s); transport_ctrl.set_session (s); if (big_transport_window) { big_transport_window->set_session (s); } if (!_session) { WM::Manager::instance().set_session (s); /* Session option editor cannot exist across change-of-session */ session_option_editor.drop_window (); /* Ditto for AddVideoDialog */ add_video_dialog.drop_window (); return; } const XMLNode* node = _session->extra_xml (X_("UI")); if (node) { const XMLNodeList& children = node->children(); for (XMLNodeList::const_iterator i = children.begin(); i != children.end(); ++i) { if ((*i)->name() == GUIObjectState::xml_node_name) { gui_object_state->load (**i); break; } } } WM::Manager::instance().set_session (s); AutomationWatch::instance().set_session (s); shuttle_box.set_session (s); mini_timeline.set_session (s); time_info_box->set_session (s); primary_clock->set_session (s); secondary_clock->set_session (s); big_clock->set_session (s); video_timeline->set_session (s); lua_script_window->set_session (s); plugin_dsp_load_window->set_session (s); transport_masters_window->set_session (s); rc_option_editor->set_session (s); /* sensitize menu bar options that are now valid */ ActionManager::set_sensitive (ActionManager::session_sensitive_actions, true); ActionManager::set_sensitive (ActionManager::write_sensitive_actions, _session->writable()); if (_session->locations()->num_range_markers()) { ActionManager::set_sensitive (ActionManager::range_sensitive_actions, true); } else { ActionManager::set_sensitive (ActionManager::range_sensitive_actions, false); } /* allow wastebasket flush again */ Glib::RefPtr act = ActionManager::get_action (X_("Main"), X_("FlushWastebasket")); if (act) { act->set_sensitive (true); } /* there are never any selections on startup */ ActionManager::set_sensitive (ActionManager::time_selection_sensitive_actions, false); ActionManager::set_sensitive (ActionManager::track_selection_sensitive_actions, false); ActionManager::set_sensitive (ActionManager::route_selection_sensitive_actions, false); ActionManager::set_sensitive (ActionManager::bus_selection_sensitive_actions, false); ActionManager::set_sensitive (ActionManager::vca_selection_sensitive_actions, false); ActionManager::set_sensitive (ActionManager::stripable_selection_sensitive_actions, false); ActionManager::set_sensitive (ActionManager::line_selection_sensitive_actions, false); ActionManager::set_sensitive (ActionManager::point_selection_sensitive_actions, false); ActionManager::set_sensitive (ActionManager::playlist_selection_sensitive_actions, false); solo_alert_button.set_active (_session->soloing()); setup_session_options (); blink_connection = Timers::blink_connect (sigc::mem_fun(*this, &ARDOUR_UI::blink_handler)); _session->SaveSessionRequested.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::save_session_at_its_request, this, _1), gui_context()); _session->StateSaved.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::update_title, this), gui_context()); _session->RecordStateChanged.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::record_state_changed, this), gui_context()); _session->TransportStateChange.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::map_transport_state, this), gui_context()); _session->DirtyChanged.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::session_dirty_changed, this), gui_context()); _session->Xrun.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::xrun_handler, this, _1), gui_context()); _session->SoloActive.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::soloing_changed, this, _1), gui_context()); _session->AuditionActive.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::auditioning_changed, this, _1), gui_context()); _session->locations()->added.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::handle_locations_change, this, _1), gui_context()); _session->locations()->removed.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::handle_locations_change, this, _1), gui_context()); _session->config.ParameterChanged.connect (_session_connections, MISSING_INVALIDATOR, boost::bind (&ARDOUR_UI::session_parameter_changed, this, _1), gui_context ()); /* Clocks are on by default after we are connected to a session, so show that here. */ connect_dependents_to_session (s); /* listen to clock mode changes. don't do this earlier because otherwise as the clocks restore their modes or are explicitly set, we will cause the "new" mode to be saved back to the session XML ("Extra") state. */ AudioClock::ModeChanged.connect (sigc::mem_fun (*this, &ARDOUR_UI::store_clock_modes)); Glib::signal_idle().connect (sigc::mem_fun (*this, &ARDOUR_UI::first_idle)); start_clocking (); map_transport_state (); second_connection = Timers::second_connect (sigc::mem_fun(*this, &ARDOUR_UI::every_second)); point_one_second_connection = Timers::rapid_connect (sigc::mem_fun(*this, &ARDOUR_UI::every_point_one_seconds)); point_zero_something_second_connection = Timers::super_rapid_connect (sigc::mem_fun(*this, &ARDOUR_UI::every_point_zero_something_seconds)); set_fps_timeout_connection(); update_format (); if (editor_meter_table.get_parent()) { transport_hbox.remove (editor_meter_table); } if (editor_meter) { editor_meter_table.remove(*editor_meter); delete editor_meter; editor_meter = 0; editor_meter_peak_display.hide(); } if (editor_meter_table.get_parent()) { transport_hbox.remove (editor_meter_table); } if (_session && _session->master_out() && _session->master_out()->n_outputs().n(DataType::AUDIO) > 0) { if (!ARDOUR::Profile->get_trx()) { editor_meter = new LevelMeterHBox(_session); editor_meter->set_meter (_session->master_out()->shared_peak_meter().get()); editor_meter->clear_meters(); editor_meter->set_meter_type (_session->master_out()->meter_type()); editor_meter->setup_meters (30, 10, 6); editor_meter->show(); editor_meter->ButtonPress.connect_same_thread (editor_meter_connection, boost::bind (&ARDOUR_UI::editor_meter_button_press, this, _1)); editor_meter_table.set_spacings(3); editor_meter_table.attach(*editor_meter, 0,1, 0,1, FILL, FILL); editor_meter_table.attach(editor_meter_peak_display, 0,1, 1,2, FILL, EXPAND|FILL); editor_meter->show(); editor_meter_peak_display.show(); } ArdourMeter::ResetAllPeakDisplays.connect (sigc::mem_fun(*this, &ARDOUR_UI::reset_peak_display)); ArdourMeter::ResetRoutePeakDisplays.connect (sigc::mem_fun(*this, &ARDOUR_UI::reset_route_peak_display)); ArdourMeter::ResetGroupPeakDisplays.connect (sigc::mem_fun(*this, &ARDOUR_UI::reset_group_peak_display)); editor_meter_peak_display.set_name ("meterbridge peakindicator"); editor_meter_peak_display.unset_flags (Gtk::CAN_FOCUS); editor_meter_peak_display.set_size_request (-1, std::max(6.f, rintf(5.f * UIConfiguration::instance().get_ui_scale())) ); editor_meter_peak_display.set_corner_radius (3.0); editor_meter_max_peak = -INFINITY; editor_meter_peak_display.signal_button_release_event().connect (sigc::mem_fun(*this, &ARDOUR_UI::editor_meter_peak_button_release), false); repack_transport_hbox (); } update_title (); } int ARDOUR_UI::unload_session (bool hide_stuff) { if (_session) { ARDOUR_UI::instance()->video_timeline->sync_session_state(); } if (_session && _session->dirty()) { std::vector actions; actions.push_back (_("Don't close")); actions.push_back (_("Just close")); actions.push_back (_("Save and close")); switch (ask_about_saving_session (actions)) { case -1: // cancel return 1; case 1: _session->save_state (""); break; } } { // tear down session specific CPI (owned by rc_config_editor which can remain) ControlProtocolManager& m = ControlProtocolManager::instance (); for (std::list::iterator i = m.control_protocol_info.begin(); i != m.control_protocol_info.end(); ++i) { if (*i && (*i)->protocol && (*i)->protocol->has_editor ()) { (*i)->protocol->tear_down_gui (); } } } if (hide_stuff) { close_all_dialogs (); editor->hide (); mixer->hide (); meterbridge->hide (); audio_port_matrix->hide(); midi_port_matrix->hide(); route_params->hide(); } second_connection.disconnect (); point_one_second_connection.disconnect (); point_zero_something_second_connection.disconnect(); fps_connection.disconnect(); if (editor_meter) { editor_meter_table.remove(*editor_meter); delete editor_meter; editor_meter = 0; editor_meter_peak_display.hide(); } ActionManager::set_sensitive (ActionManager::session_sensitive_actions, false); WM::Manager::instance().set_session ((ARDOUR::Session*) 0); if (ARDOUR_UI::instance()->video_timeline) { ARDOUR_UI::instance()->video_timeline->close_session(); } stop_clocking (); /* drop everything attached to the blink signal */ blink_connection.disconnect (); ARDOUR::Session* session_to_delete = _session; _session = 0; delete session_to_delete; update_title (); return 0; } void ARDOUR_UI::toggle_editor_and_mixer () { if (editor->tabbed() && mixer->tabbed()) { /* both in the same window */ if (_tabs.get_current_page() == _tabs.page_num (editor->contents())) { _tabs.set_current_page (_tabs.page_num (mixer->contents())); } else if (_tabs.get_current_page() == _tabs.page_num (mixer->contents())) { _tabs.set_current_page (_tabs.page_num (editor->contents())); } else { /* go to mixer */ _tabs.set_current_page (_tabs.page_num (mixer->contents())); } return; } if (editor->tabbed() && !mixer->tabbed()) { /* editor is tabbed, mixer is not */ Gtk::Window* mwin = mixer->current_toplevel (); if (!mwin) { /* mixer's own window doesn't exist */ mixer->make_visible (); } else if (!mwin->is_mapped ()) { /* mixer's own window exists but isn't mapped */ mixer->make_visible (); } else { /* mixer window is mapped, editor is visible as tab */ Gtk::Widget* f = mwin->get_focus(); if (f && f->has_focus()) { /* mixer has focus, switch to editor */ editor->make_visible (); } else { mixer->make_visible (); } } return; } if (!editor->tabbed() && mixer->tabbed()) { /* mixer is tabbed, editor is not */ Gtk::Window* ewin = editor->current_toplevel (); if (!ewin) { /* mixer's own window doesn't exist */ editor->make_visible (); } else if (!ewin->is_mapped ()) { /* editor's own window exists but isn't mapped */ editor->make_visible (); } else { /* editor window is mapped, mixer is visible as tab */ Gtk::Widget* f = ewin->get_focus(); if (f && f->has_focus()) { /* editor has focus, switch to mixer */ mixer->make_visible (); } else { editor->make_visible (); } } return; } } void ARDOUR_UI::step_up_through_tabs () { std::vector candidates; /* this list must match the order of visibility buttons */ if (!editor->window_visible()) { candidates.push_back (editor); } if (!mixer->window_visible()) { candidates.push_back (mixer); } if (!rc_option_editor->window_visible()) { candidates.push_back (rc_option_editor); } if (candidates.size() < 2) { /* nothing to be done with zero or one visible in tabs */ return; } std::vector::iterator prev = candidates.end(); std::vector::iterator i; Gtk::Widget* w = _tabs.get_nth_page (_tabs.get_current_page ()); for (i = candidates.begin(); i != candidates.end(); ++i) { if (w == &(*i)->contents()) { if (prev != candidates.end()) { _tabs.set_current_page (_tabs.page_num ((*prev)->contents())); } else { _tabs.set_current_page (_tabs.page_num (candidates.back()->contents())); } return; } prev = i; } } void ARDOUR_UI::step_down_through_tabs () { std::vector candidates; /* this list must match the order of visibility buttons */ if (!editor->window_visible()) { candidates.push_back (editor); } if (!mixer->window_visible()) { candidates.push_back (mixer); } if (!rc_option_editor->window_visible()) { candidates.push_back (rc_option_editor); } if (candidates.size() < 2) { /* nothing to be done with zero or one visible in tabs */ return; } std::vector::reverse_iterator next = candidates.rend(); std::vector::reverse_iterator i; Gtk::Widget* w = _tabs.get_nth_page (_tabs.get_current_page ()); for (i = candidates.rbegin(); i != candidates.rend(); ++i) { if (w == &(*i)->contents()) { if (next != candidates.rend()) { _tabs.set_current_page (_tabs.page_num ((*next)->contents())); } else { _tabs.set_current_page (_tabs.page_num (candidates.front()->contents())); } break; } next = i; } } void ARDOUR_UI::key_change_tabbable_visibility (Tabbable* t) { if (!t) { return; } if (t->tabbed()) { _tabs.set_current_page (_tabs.page_num (t->contents())); } else if (!t->fully_visible()) { t->make_visible (); } else { _main_window.present (); } } void ARDOUR_UI::button_change_tabbable_visibility (Tabbable* t) { /* For many/most users, clicking a button in the main window will make it the main/front/key window, which will change any stacking relationship they were trying to modify by clicking on the button in the first place. This button-aware method knows that click on a button designed to show/hide a Tabbable that has its own window will have made that window be obscured (as the main window comes to the front). We therefore *hide* the Tabbable's window if it is even partially visible, believing that this is likely because the Tabbable window used to be front, the user clicked to change that, and before we even get here, the main window has become front. */ if (!t) { return; } if (t->tabbed()) { _tabs.set_current_page (_tabs.page_num (t->contents())); } else if (t->visible()) { t->hide(); } else { t->make_visible (); } } void ARDOUR_UI::show_tabbable (Tabbable* t) { if (!t) { return; } t->make_visible (); } void ARDOUR_UI::hide_tabbable (Tabbable* t) { if (!t) { return; } t->make_invisible (); } void ARDOUR_UI::attach_tabbable (Tabbable* t) { if (!t) { return; } t->attach (); } void ARDOUR_UI::detach_tabbable (Tabbable* t) { if (!t) { return; } t->detach (); } void ARDOUR_UI::tabs_page_added (Widget*,guint) { if (_tabs.get_n_pages() > 1) { std::vector drag_target_entries; drag_target_entries.push_back (TargetEntry ("tabbable")); editor_visibility_button.drag_source_set (drag_target_entries); mixer_visibility_button.drag_source_set (drag_target_entries); prefs_visibility_button.drag_source_set (drag_target_entries); editor_visibility_button.drag_source_set_icon (Gtkmm2ext::pixbuf_from_string (editor->name(), Pango::FontDescription ("Sans 24"), 0, 0, Gdk::Color ("red"))); mixer_visibility_button.drag_source_set_icon (Gtkmm2ext::pixbuf_from_string (mixer->name(), Pango::FontDescription ("Sans 24"), 0, 0, Gdk::Color ("red"))); prefs_visibility_button.drag_source_set_icon (Gtkmm2ext::pixbuf_from_string (rc_option_editor->name(), Pango::FontDescription ("Sans 24"), 0, 0, Gdk::Color ("red"))); } } void ARDOUR_UI::tabs_page_removed (Widget*, guint) { if (_tabs.get_n_pages() < 2) { editor_visibility_button.drag_source_unset (); mixer_visibility_button.drag_source_unset (); prefs_visibility_button.drag_source_unset (); } } void ARDOUR_UI::tabs_switch (GtkNotebookPage*, guint page) { if (editor && (page == (guint) _tabs.page_num (editor->contents()))) { editor_visibility_button.set_active_state (Gtkmm2ext::ImplicitActive); if (mixer && (mixer->tabbed() || mixer->tabbed_by_default())) { mixer_visibility_button.set_active_state (Gtkmm2ext::Off); } if (rc_option_editor && (rc_option_editor->tabbed() || rc_option_editor->tabbed_by_default())) { prefs_visibility_button.set_active_state (Gtkmm2ext::Off); } } else if (mixer && (page == (guint) _tabs.page_num (mixer->contents()))) { if (editor && (editor->tabbed() || editor->tabbed_by_default())) { editor_visibility_button.set_active_state (Gtkmm2ext::Off); } mixer_visibility_button.set_active_state (Gtkmm2ext::ImplicitActive); if (rc_option_editor && (rc_option_editor->tabbed() || rc_option_editor->tabbed_by_default())) { prefs_visibility_button.set_active_state (Gtkmm2ext::Off); } } else if (page == (guint) _tabs.page_num (rc_option_editor->contents())) { if (editor && (editor->tabbed() || editor->tabbed_by_default())) { editor_visibility_button.set_active_state (Gtkmm2ext::Off); } if (mixer && (mixer->tabbed() || mixer->tabbed_by_default())) { mixer_visibility_button.set_active_state (Gtkmm2ext::Off); } prefs_visibility_button.set_active_state (Gtkmm2ext::ImplicitActive); } } void ARDOUR_UI::tabbable_state_change (Tabbable& t) { std::vector insensitive_action_names; std::vector sensitive_action_names; std::vector active_action_names; std::vector inactive_action_names; Glib::RefPtr action; std::string downcased_name = downcase (t.name()); enum ViewState { Tabbed, Windowed, Hidden }; ViewState vs; if (t.tabbed()) { insensitive_action_names.push_back (string_compose ("attach-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("show-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("detach-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("hide-%1", downcased_name)); vs = Tabbed; } else if (t.tabbed_by_default ()) { insensitive_action_names.push_back (string_compose ("attach-%1", downcased_name)); insensitive_action_names.push_back (string_compose ("hide-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("show-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("detach-%1", downcased_name)); vs = Hidden; } else if (t.window_visible()) { insensitive_action_names.push_back (string_compose ("detach-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("show-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("attach-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("hide-%1", downcased_name)); active_action_names.push_back (string_compose ("show-%1", downcased_name)); inactive_action_names.push_back (string_compose ("hide-%1", downcased_name)); vs = Windowed; } else { /* not currently visible. allow user to retab it or just make * it visible. */ insensitive_action_names.push_back (string_compose ("detach-%1", downcased_name)); insensitive_action_names.push_back (string_compose ("hide-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("show-%1", downcased_name)); sensitive_action_names.push_back (string_compose ("attach-%1", downcased_name)); active_action_names.push_back (string_compose ("hide-%1", downcased_name)); inactive_action_names.push_back (string_compose ("show-%1", downcased_name)); vs = Hidden; } for (std::vector::iterator s = insensitive_action_names.begin(); s != insensitive_action_names.end(); ++s) { action = ActionManager::get_action (X_("Common"), (*s).c_str(), false); if (action) { action->set_sensitive (false); } } for (std::vector::iterator s = sensitive_action_names.begin(); s != sensitive_action_names.end(); ++s) { action = ActionManager::get_action (X_("Common"), (*s).c_str(), false); if (action) { action->set_sensitive (true); } } ArdourButton* vis_button = 0; std::vector other_vis_buttons; if (&t == editor) { vis_button = &editor_visibility_button; other_vis_buttons.push_back (&mixer_visibility_button); other_vis_buttons.push_back (&prefs_visibility_button); } else if (&t == mixer) { vis_button = &mixer_visibility_button; other_vis_buttons.push_back (&editor_visibility_button); other_vis_buttons.push_back (&prefs_visibility_button); } else if (&t == rc_option_editor) { vis_button = &prefs_visibility_button; other_vis_buttons.push_back (&editor_visibility_button); other_vis_buttons.push_back (&mixer_visibility_button); } if (!vis_button) { return; } switch (vs) { case Tabbed: vis_button->set_active_state (Gtkmm2ext::ImplicitActive); break; case Windowed: vis_button->set_active_state (Gtkmm2ext::ExplicitActive); break; case Hidden: vis_button->set_active_state (Gtkmm2ext::Off); break; } for (std::vector::iterator b = other_vis_buttons.begin(); b != other_vis_buttons.end(); ++b) { (*b)->set_active_state (Gtkmm2ext::Off); } } void ARDOUR_UI::toggle_meterbridge () { assert (editor && mixer && meterbridge); bool show = false; bool obscuring = false; if (meterbridge->not_visible ()) { show = true; } else if ((editor->window_visible() && ARDOUR_UI_UTILS::windows_overlap (editor->own_window(), meterbridge)) || (mixer->window_visible () && ARDOUR_UI_UTILS::windows_overlap (mixer->own_window(), meterbridge))) { obscuring = true; } if (obscuring && ((editor->own_window() && editor->own_window()->property_has_toplevel_focus()) || (mixer->own_window() && mixer->own_window()->property_has_toplevel_focus()))) { show = true; } if (show) { meterbridge->show_window (); meterbridge->present (); meterbridge->raise (); } else { meterbridge->hide_window (NULL); } } void ARDOUR_UI::toggle_luawindow () { assert (editor && luawindow); bool show = false; if (luawindow->not_visible ()) { show = true; } // TODO check overlap if (show) { luawindow->show_window (); luawindow->present (); luawindow->raise (); } else { luawindow->hide_window (NULL); } } void ARDOUR_UI::new_midi_tracer_window () { RefPtr act = ActionManager::get_action (X_("Common"), X_("NewMIDITracer")); if (!act) { return; } std::list::iterator i = _midi_tracer_windows.begin (); while (i != _midi_tracer_windows.end() && (*i)->get_visible() == true) { ++i; } if (i == _midi_tracer_windows.end()) { /* all our MIDITracer windows are visible; make a new one */ MidiTracer* t = new MidiTracer (); t->show_all (); _midi_tracer_windows.push_back (t); } else { /* re-use the hidden one */ (*i)->show_all (); } } KeyEditor* ARDOUR_UI::create_key_editor () { KeyEditor* kedit = new KeyEditor; for (std::list::iterator b = Bindings::bindings.begin(); b != Bindings::bindings.end(); ++b) { kedit->add_tab ((*b)->name(), **b); } return kedit; } BundleManager* ARDOUR_UI::create_bundle_manager () { return new BundleManager (_session); } AddVideoDialog* ARDOUR_UI::create_add_video_dialog () { return new AddVideoDialog (_session); } SessionOptionEditor* ARDOUR_UI::create_session_option_editor () { return new SessionOptionEditor (_session); } BigClockWindow* ARDOUR_UI::create_big_clock_window () { return new BigClockWindow (*big_clock); } BigTransportWindow* ARDOUR_UI::create_big_transport_window () { BigTransportWindow* btw = new BigTransportWindow (); btw->set_session (_session); return btw; } void ARDOUR_UI::handle_locations_change (Location *) { if (_session) { if (_session->locations()->num_range_markers()) { ActionManager::set_sensitive (ActionManager::range_sensitive_actions, true); } else { ActionManager::set_sensitive (ActionManager::range_sensitive_actions, false); } } } bool ARDOUR_UI::tabbed_window_state_event_handler (GdkEventWindowState* ev, void* object) { if (object == editor) { if ((ev->changed_mask & GDK_WINDOW_STATE_FULLSCREEN) && (ev->new_window_state & GDK_WINDOW_STATE_FULLSCREEN)) { if (big_clock_window) { big_clock_window->set_transient_for (*editor->own_window()); } if (big_transport_window) { big_transport_window->set_transient_for (*editor->own_window()); } } } else if (object == mixer) { if ((ev->changed_mask & GDK_WINDOW_STATE_FULLSCREEN) && (ev->new_window_state & GDK_WINDOW_STATE_FULLSCREEN)) { if (big_clock_window) { big_clock_window->set_transient_for (*mixer->own_window()); } if (big_transport_window) { big_transport_window->set_transient_for (*mixer->own_window()); } } } return false; } bool ARDOUR_UI::editor_meter_peak_button_release (GdkEventButton* ev) { if (ev->button == 1) { ArdourMeter::ResetAllPeakDisplays (); } return false; } void ARDOUR_UI::toggle_mixer_space() { Glib::RefPtr tact = ActionManager::get_toggle_action ("Common", "ToggleMaximalMixer"); if (tact->get_active()) { mixer->maximise_mixer_space (); } else { mixer->restore_mixer_space (); } }